Global Patent Index - EP 3699828 A1

EP 3699828 A1 20200826 - SYSTEM AND METHOD FOR PROPAGATING INFORMATION USING MODIFIED NUCLEIC ACIDS

Title (en)

SYSTEM AND METHOD FOR PROPAGATING INFORMATION USING MODIFIED NUCLEIC ACIDS

Title (de)

SYSTEM UND VERFAHREN ZUR WEITERGABE VON INFORMATIONEN MITHILFE VERÄNDERTER NUKLEINSÄUREN

Title (fr)

SYSTÈME ET PROCÉDÉ POUR PROPAGER DES INFORMATIONS À L'AIDE D'ACIDES NUCLÉIQUES MODIFIÉS

Publication

EP 3699828 A1 20200826 (EN)

Application

EP 20151276 A 20110325

Priority

  • US 3490121 P 20100527
  • EP 11787057 A 20110325
  • US 34901210 P 20100527
  • US 2011029947 W 20110325

Abstract (en)

A method for improving a nucleic acid-based molecular computing system includes (A) identifying a computing system comprised of (i) a nucleic acid structure that includes an incompletely base-paired duplex domain, (ii) at least one polynucleotide displacement molecule that can bind with the nucleic acid structure under hybridizing conditions, such that the nucleic acid structure undergoes a transition in energy state due to a branch migration reaction involving the duplex domain, and (iii) a clashing polynucleotide molecule that competes with the polynucleotide displacement molecule for binding the nucleic acid structure under the hybridizing conditions but that cannot produce a branch migration reaction involving the duplex domain; then (B) reconfiguring at least one of the displacement molecule and the nucleic acid structure, respectively, to incorporate a chemical modification relative to a first reference molecule that comprises natural nucleosides and has the same sequence content as the displacement molecule or the nucleic acid structure, as the case may be, wherein the modification causes binding of the displacement molecule and the nucleic acid structure to have a hybridization free energy, differing from that of a first reference binding between the displacement molecule or the nucleic acid structure and the first reference molecule, such that the branch migration reaction is facilitated relative to the first reference binding; and/or (C) reconfiguring at least one of the clashing molecule and the nucleic acid structure, respectively, to incorporate a chemical modification relative to a second reference molecule that comprises natural nucleosides and has the same sequence content as the clashing molecule or the nucleic acid structure, as the case may be. The modification effected via such reconfiguring causes binding of the clashing molecule and the nucleic acid structure to have a hybridization free energy, differing from that of a second reference binding between the clashing molecule or the nucleic acid structure and the second reference molecule, such that binding of the clashing molecule is impeded relative to the second reference binding.

IPC 8 full level

G06N 3/12 (2006.01); B82Y 10/00 (2011.01); G06N 3/00 (2006.01); G16B 30/00 (2019.01)

CPC (source: EP RU US)

B82Y 10/00 (2013.01 - EP US); C12Q 1/6837 (2013.01 - US); G06N 3/002 (2013.01 - EP US); G06N 3/123 (2013.01 - EP US); G16B 30/00 (2019.02 - EP RU US); G16B 50/00 (2019.02 - RU); G06N 3/123 (2013.01 - RU)

Citation (applicant)

  • US 7538202 B2 20090526 - ZHANG DAVID [US], et al
  • US 2005112614 A1 20050526 - COOK MATTHEW M [US], et al
  • US 2007072215 A1 20070329 - SEELIG GEORG [US], et al
  • US 2009191546 A1 20090730 - ZHANG DAVID [US], et al
  • BEAUCAGE, S.R. IYER, TETRAHEDRON, vol. 48, 1992, pages 2223
  • BROWN, D. M. A: "Brief history of oligonucleotide synthesis", METHODS IN MOLECULAR BIOLOGY (PROTOCOLS FOR OLIGONUCLEOTIDES AND ANALOGS, vol. 20, 1993, pages 1 - 17
  • REESE, COLIN B., ORGANIC & BIOMOLECULAR CHEMISTRY, vol. 3, 2005, pages 3851
  • IYER, R. P.S.L. BEAUCAGE: "7.05. Oligonucleotide synthesis", COMPREHENSIVE NATURAL PRODUCTS CHEMISTRY (DNA AND ASPECTS OF MOLECULAR BIOLOGY, vol. 7, 1999, pages 105 - 52
  • F. BECK: "METHODS IN MOLECULAR BIOLOGY SERIES (Peptide Nucleic Acids", HUMANA PRESS, article "Solid Phase Synthesis of PNA Oligomers"
  • BISWAS, 1.YAMAMOTO, A.HSIEH, P., J MOL BIOL, vol. 279, 1998, pages 2796 - 806
  • PICURI, J. M.FREZZA, B. M.GHADIRI, M. R., JAM CHEM SOC, vol. 131, 2009, pages 17303 - 14
  • LI, Q.LUAN, G.GUO, Q.LIANG, J., NUCLEIC ACIDS RES, vol. 30, 2002, pages E5
  • ZHANG, D. Y.TURBERFIELD, A. J.YURKE, B.WINFREE, E., SCIENCE, vol. 318, 2007, pages 1121 - 5
  • FREZZA, B. M.COCKROFT, S. L.GHADIRI, M. R., JAM CHEM SOC, vol. 129, 2007, pages 15581 - 4
  • VOELCKER, N. H.GUCKIAN, K. M.SAGHATELIAN, A.GHADIRI, M. R., SMALL, vol. 4, 2008, pages 427 - 31
  • SEELIG, G.SOLOVEICHIK, D.ZHANG, D. Y.WINFREE, E., SCIENCE, vol. 314, 2006, pages 1585 - 8
  • PANYUTIN, I. G.HSIEH, P., JMOLBIOL, vol. 230, 1993, pages 413 - 24
  • PANYUTIN, I. G.HSIEH, P., PROC NATL ACAD SCI USA, vol. 91, 1994, pages 2021 - 5
  • MAUGH, T. H., 2ND SCIENCE, vol. 217, 1982, pages 719 - 720
  • TAJIMA, T.NAKAJIMA, A., JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, vol. 130, 2008, pages 10496 - 7
  • VOIT, B., ANGEW CHEM INT ED ENGL, vol. 45, 2006, pages 4238 - 40
  • KAHAN, M.GIL, B.ADAR, R.SHAPIRO, E., PHYSICA D-NONLINEAR PHENOMENA, vol. 237, 2008, pages 1165 - 1172
  • NIELSEN, P. E.EGHOLM, M., CURR ISSUES MOL BIOL, vol. 1, 1999, pages 89 - 104
  • DRAGULESCU-ANDRASI, A.ZHOU, P.HE, G.LY, D. H., CHEM COMMUN (CAMB), 2005, pages 244 - 6
  • SAHU, B.CHENNA, V.LATHROP, K. L.THOMAS, S. M.ZON, G.LIVAK, K. J.LY, D. H., J ORG CHEM, vol. 74, 2009, pages 1509 - 16
  • ZHOU, P.WANG, M.DU, L.FISHER, G. W.WAGGONER, A.LY, D. H., JAM CHEM SOC, vol. 125, 2003, pages 6878 - 9
  • DRAGULESCU-ANDRASI, A.RAPIREDDY, S.FREZZA, B. M.GAYATHRI, C.GIL, R. R.LY, D. H., J AM CHEM SOC, vol. 128, 2006, pages 10258 - 67
  • FREIER, S. M.ALTMANN, K. H., NUCLEIC ACIDS RESEARCH, vol. 25, 1997, pages 4429 - 4443
  • BRAASCH, D. A.COREY, D. R., CHEMISTRY & BIOLOGY, vol. 8, 2001, pages 1 - 7
  • SUMMERTON, J.WELLER, D., ANTISENSE & NUCLEIC ACID DRUG DEVELOPMENT, vol. 7, 1997, pages 187 - 195
  • ORTEGA, J. A.BIAS, J. R.OROZCO, M.GRANDAS, A.PEDROSO, E.ROBLES, J., ORG LETT, vol. 9, 2007, pages 4503 - 6
  • KUTYAVIN, I. V.RHINEHART, R. L.LUKHTANOV, E. A.GORN, V. V.MEYER, R. B., JR.GAMPER, H. B., JR., BIOCHEMISTRY, vol. 35, 1996, pages 11170 - 6
  • LEE, D.SINGHA, K.JANG, M. K.NAH, J. W.PARK, I. K.KIM, W. J., MOL BIOSYST, vol. 5, 2009, pages 391 - 6

Citation (search report)

  • [I] US 2007072215 A1 20070329 - SEELIG GEORG [US], et al
  • [A] HARVEY LEDERMAN ET AL: "Deoxyribozyme-Based Three-Input Logic Gates and Construction of a Molecular Full Adder", BIOCHEMISTRY, vol. 45, no. 4, 1 January 2006 (2006-01-01), US, pages 1194 - 1199, XP055355310, ISSN: 0006-2960, DOI: 10.1021/bi051871u

Designated contracting state (EPC)

AL AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HR HU IE IS IT LI LT LU LV MC MK MT NL NO PL PT RO RS SE SI SK SM TR

DOCDB simple family (publication)

WO 2011149584 A2 20111201; WO 2011149584 A3 20120119; BR 112012029355 A2 20160726; BR 112012029355 B1 20210706; CN 102971736 A 20130313; CN 102971736 B 20160127; EP 2577534 A2 20130410; EP 2577534 A4 20170426; EP 3699828 A1 20200826; IL 223130 A0 20130203; IL 223130 A 20170131; JP 2013530459 A 20130725; JP 2017182102 A 20171005; JP 2018152080 A 20180927; JP 5848337 B2 20160127; JP 6363984 B2 20180725; RU 2012155205 A 20140710; RU 2603746 C2 20161127; SG 10201504130X A 20150730; SG 185695 A1 20130130; US 2011294687 A1 20111201; US 2014114585 A1 20140424; US 2017220921 A1 20170803; US 2021034944 A1 20210204; US 8630809 B2 20140114; US 9547750 B2 20170117

DOCDB simple family (application)

US 2011029947 W 20110325; BR 112012029355 A 20110325; CN 201180032814 A 20110325; EP 11787057 A 20110325; EP 20151276 A 20110325; IL 22313012 A 20121119; JP 2013512619 A 20110325; JP 2015230611 A 20151126; JP 2018061421 A 20180328; RU 2012155205 A 20110325; SG 10201504130X A 20110325; SG 2012085817 A 20110325; US 201113072438 A 20110325; US 201314142531 A 20131227; US 201615375629 A 20161212; US 202016875641 A 20200515